DNA Electronics (‘DNAe’), the inventor of semiconductor DNA sequencing technology and developer of a new, revolutionary blood-to-result test for bloodstream infections, announces that an article on research utilizing the Company’s patented semiconductor DNA analysis technology has achieved recognition as one of the top 100 read articles for 2016 in Scientific Reports, a peer reviewed journal from the publishers of Nature.

Research carried out by scientists at Imperial College, London (within the Division of Infectious Diseases and the Department of Bioengineering) and supported by DNAe, uses a novel approach for detecting the amount of virus present in the blood of HIV patients. If successfully developed into a test, it could in the future enable HIV patients to monitor their response to treatment, and provide an early alert to the patients and their doctors to the development of drug-resistance.

The article, entitled ‘Novel pH sensing semiconductor for point-of-care detection of HIV-1 viremia’ was published on 10th November 2016. In November and December, the paper received 8,628 views, placing it within the top 100 most read of more than 20,000 articles published in Scientific Reports last year.

The research involved analysis of 991 clinical samples, showing the method using DNAe’s technology had a high level of sensitivity (95%) and an average time to result of 20.8 minutes. Currently marketed tests take three or more days to detect the amount of HIV virus present in the blood, providing a strong indication of the very rapid performance of the underlying semiconductor DNA analysis technology, Genalysis®. This is a potential new application of Genalysis®, already being developed by DNAe for the diagnosis of serious bloodstream infections leading to sepsis, antimicrobial resistant infections and influenza.

Earlier this year, DNAe expanded its US operations and appointed four members to a newly formed Clinical Advisory Board in preparation for the launch of its first product, the LiDia™ Bloodstream Infection (BSI) Test. The test is being commercialized to address the urgent unmet need for a diagnostic capable of diagnosing the microbial cause of bloodstream infection leading to sepsis quickly and accurately. Responsible for over 200,000 deaths per annum in the US, and 44,000 in the UK, sepsis claims more lives than bowel, breast and prostate cancer combined. Rapid diagnosis and treatment with the correct antibiotic can significantly reduce mortality rates. Unlike current blood culture based diagnostics which can take two to six days, the LiDia™ test for bloodstream infection will offer a ‘blood-to-result’ readout in just a few hours.

Following its test for bloodstream infections, DNAe plans to expand the range of diagnostic tests available on the LiDia™ platform to include other disease areas where rapid diagnosis is a key factor in success of treatment.

It is a great achievement for the whole team at Imperial and DNAe to have the article placed in Scientific Reports’ top 100 read list for 2016, and is a demonstration of the power and utility of DNAe’s technology. At DNAe, our focus is on applying our semiconductor sequencing and other technologies to address significant global threats to health, where treatment is time-critical and needs to be right first time.

Dr Steve Allen, CEO of DNAe Group Holdings commented:

The popularity of this article is a fantastic recognition for the team at Imperial, supported by our scientists, and is testament to the importance of the work they’re doing. This is a further example of the breadth of application of DNAe’s technology. We wish the Imperial team every success as they develop their research further.

Leveraging the mass production benefit that MultiBrain® technology brings to neurohistology, NSA can accelerate the R&D preclinical and safety assessment processes many fold and perform them less expensively. This results in faster times for a potential drug to move from R&D to clinical trials and sooner for use in people.

Pittcon is an analytical conference, so naturally my talk will be about analytical chemistry and how analytical chemistry will become increasingly important in delivering healthcare solutions, not only for rich people, but also, hopefully, for poor people across the world.

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